CN104864606B - All-weather solar intelligent ecological system - Google Patents
All-weather solar intelligent ecological system Download PDFInfo
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- CN104864606B CN104864606B CN201510213899.XA CN201510213899A CN104864606B CN 104864606 B CN104864606 B CN 104864606B CN 201510213899 A CN201510213899 A CN 201510213899A CN 104864606 B CN104864606 B CN 104864606B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
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Abstract
The invention discloses a kind of all-weather solar intelligent ecological system;Belong to the technical field for the environment friendly system device structure for being mainly used in carrying out the intelligentized control methods such as heat supply, refrigeration as main energy sources using solar energy.Wherein solar-energy air-energy control centre is electrically connected with the heat accumulation and cold, hot two-purpose water tank that are connected by magnetic valve, ultralow-temperature air energy heat pump, solar thermal collector, air-conditioner controller and ground heating system etc. by electronic circuit with the electric signal of sensor;Control meets the needs of heat supply, refrigeration, water purification, generating, fresh air as needed using solar energy is round-the-clock, and amenity requirement is still reached under harsh climate environment;To be grown with service life, cost of investment is low, and the advantages of long term benefit.
Description
Technical field
The present invention relates to a kind of all-weather solar intelligent ecological system;Belong to the intelligent electronic control system of mechanical device
Unite structure technical field, specifically belong to be mainly used in using solar energy as main energy sources progress heat supply, refrigeration, water purification,
The technical field of the environment friendly system device structure of the intelligentized control methods such as generating, fresh air.
Background technology
Now, energy shortage constrains the high speed development of national economy, and problem of environmental pollution increasingly becomes the people
The focus of concern, country greatly develop the regenerative resource of cleaning using the saving energy and environmental protection as a fundamental state policy.
Solar energy, air energy, wind energy, geothermal energy are the inexhaustible free regenerative resources of nature.Allow the people
Ozone is breathed, it is maximum people's livelihood engineering to drink clean water.At present, the heating system of family and enterprise exists
During use, if typically all needing whole day to turn on the power to reach basic demand more using electricity using clean energy resource;At this
During kind, heater works repeatedly wastes much electricity.But directly asked using solar heating due to technically existing
Topic can't realize extensively, and solar energy multi-purpose heats still mainly using coal, gas or electricity in only providing hot water, to making
User brings great inconvenience, while also environment is impacted, and the energy is caused to waste.
The content of the invention
The invention provides a kind of all-weather solar intelligent ecological system;With realize using the round-the-clock heat supply of solar energy,
Refrigeration, water purification, generating, the demand of fresh air, still reach under harsh climate environment constant indoor temperature, constant humidity, permanent oxygen, it is high comfortable,
No pollution, zero-emission, thoroughly effect a radical cure infringement of the pernicious gases such as indoor pm2.5, formaldehyde, dimethylbenzene to human body;Service life is grown,
Cost of investment is low, and the purpose of long term benefit.
To reach described purpose the technical scheme is that:
A kind of all-weather solar intelligent ecological system, including collection hot recycle pump, magnetic valve, heat medium circulation pump, ultralow temperature
Air energy heat pump, hot water circulating pump, heat storage water tank, cold, hot two-purpose water tank, solar thermal collector, floor heating circulation pump, Air-conditioning Cycle
Pump, solar-energy air-energy control centre, air-conditioner controller, check-valves, water knockout drum, air bleeding valve, ground heating system, VMC, wind
Machine coil pipe and connecting pipe;
Described heat storage water tank is overall column, hollow, the outside upright structures for being provided with attemperator;The water storage
Case is internally provided with the first coil pipe group and the second coil pipe group;
The porch of the first described coil pipe group is provided with air bleeding valve;The outlet of the first coil pipe group is connected by connecting pipe
Lead to the collection hot recycle pump;The collection hot recycle pump connects the water inlet of the solar thermal collector by connecting pipe;The solar energy collection
The delivery port of hot device connects the entrance of the first coil pipe group by hot water heat exchanger with connecting pipe;
The entrance of the second described coil pipe group connects the check-valves by being connected to the connecting pipe of external water;The check-valves
Pass through connecting pipe and the outlet for dividing family heat storage water tank;The outlet of the second coil pipe group connects the hot water by connecting pipe
Circulating pump;The hot water circulating pump is connected by connecting pipe with a point entrance for family heat storage water tank;This divides family heat storage water tank and bathing
Device connects;
Described cold, hot two-purpose water tank is overall column, hollow, the outside upright structures for being provided with attemperator;This is cold
The bottom of hot dual-purpose water tank is provided with the outlet connected with the magnetic valve, and the magnetic valve is connected by connecting pipe and the heat storage water tank
It is logical;The cold, hot two-purpose water tank is connected by connecting pipe with external water;
Described cold, hot two-purpose water tank is internally provided with the 3rd coil pipe group;The entrance of 3rd coil pipe group connects the heating agent
Circulating pump;The heat medium circulation pump connects the ultralow-temperature air energy heat pump by connecting pipe;The outlet of 3rd coil pipe group passes through
Connecting pipe connects the ultralow-temperature air energy heat pump;
Described cold, hot two-purpose water tank connects the entrance of the ground heating system by the water knockout drum with connecting pipe;The floor heating system
The outlet of system connects the cold, hot two-purpose water tank by connecting pipe;
Described cold, hot two-purpose water tank connects the fan coil with connecting pipe by the air-conditioning circulating pump;The fan coil
Ceiling capillary group is connected by connecting pipe;The air-conditioning that the external connection of the fan coil can be controlled by the air-conditioner controller
Device;
The entrance of described heat storage water tank is connected to the emptying valve group on the connecting pipe;
Described heat storage water tank, temperature sensor is provided with cold, hot two-purpose water tank and connecting pipe;
Described VMC includes the intake stack being connected with exchange control device;The intake stack is spiral helicine disk
Tubular construction, the intake stack are located at the bottom of ground heating system;The entrance of the intake stack is located outside, the outlet of the intake stack
Positioned at interior;Temperature sensor is provided with the entrance and exit of the intake stack;
Described solar-energy air-energy control centre is hot with the magnetic valve, the ultralow-temperature air energy respectively by electronic circuit
Pump, the solar thermal collector, the air-conditioner controller, the VMC, the ground heating system are electrically connected with.
The structure of the connecting pipe includes connecting pipe inner tube, and outer tube, the 3rd heat insulation layer, the first heat-insulation layer, first is exhausted
Thermosphere, the second heat insulation layer and the second heat-insulation layer;
The ratio between pipe thickness and pipe diameter of the connecting pipe inner tube are 0.12: 1 under same units;
First heat insulation layer is double-decker, and ring set is in the outer shroud of the connecting pipe inner tube, the thickness of each Rotating fields successively
It is identical;The ratio between the thickness and described pipe thickness are 0.5: 1;
Outer shroud of the first heat-insulation layer ring set in first heat insulation layer;The thickness of first heat-insulation layer and described thickness of pipe wall
The ratio between degree is 0.9: 1;
Second heat insulation layer is double-decker, and ring set is in the outer shroud of first heat-insulation layer, the thickness phase of each Rotating fields successively
Together;The ratio between the thickness and described pipe thickness are 0.5: 1;
Outer shroud of the second heat-insulation layer ring set in second heat insulation layer;The thickness of second heat-insulation layer and described thickness of pipe wall
The ratio between degree is 0.9: 1;
3rd heat insulation layer is single layer structure, and ring set is in the outer shroud of second heat-insulation layer, the 3rd heat insulation layer thickness and institute
The ratio between pipe thickness stated is 0.3: 1;
The outer tube is oblique pipe crimping structure, outer shroud of the ring set in the 3rd heat insulation layer;The thickness of the outer tube with it is described
The ratio between pipe thickness is 1: 1.
The material of the connecting pipe inner tube is hot dip galvanizing pipe or resistance oxygen PPR pipe;The material of the outer tube is galvanizing or aluminium
The oblique pipe crimping of plate;First heat-insulation layer and second heat-insulation layer are made up of mechanism polyurethane heat insulation material;First heat insulation layer, second
The material of heat insulation layer and the 3rd heat insulation layer is glass fibre, asbestos or aerogel blanket;First heat-insulation layer and second heat-insulation layer
Thickness be 20-40 millimeters;The thickness of the heat insulation layer individual layer is 0.2-0.3 millimeters.
The structure of the heat storage water tank or the cold, hot two-purpose water tank is what is be made up of stainless steel plate and the heat insulation layer C tightly covered thereon
Double-decker;The stainless steel plate is located at outer layer;The heat-insulation layer C of polyurethane material is filled between the double-decker;
It is common continuous at a right angle that the elevated-temperature seal bar is located at the stainless steel plate docked by the both sides of seam crossing into vertical configuration
In the closing space that crimping clockwise is formed three times;Four sides of the elevated-temperature seal bar and described heat insulation layer C are into withstanding structure;Should
Closing space and withstanding structure respectively constitute the mechanical seam part of the water tank ectonexine;
The double-decker forms the structure of sealing by mechanical seam respectively;The mechanical seam of the double-decker is partly embedded into
In heat-insulation layer C.
The ratio between the stainless steel plate and heat insulation layer C thickness is 1: 1;Heat insulation layer C material is glass fibre or rock wool;Should
The ratio between thickness of heat-insulation layer C and the stainless steel plate is 12: 1;The elevated-temperature seal bar section is rectangle, and length and the crimping are same
Long, thickness is 2 millimeters, and length or width are 6 millimeters or 10 millimeters.
The first coil pipe group coil pipe number of turn is the heat storage water tank internal height per unit rice 26-30 circles in the heat storage water tank, no
It is 5-10 degree with angle between the coil pipe of the number of turn;The second coil pipe group coil pipe number of turn is the heat storage water tank internal height per unit rice
18-22 circles, angle is 10-18 degree between the coil pipe of the different numbers of turn;The ratio between the coil pipe internal diameter and the heat storage water tank internal diameter are 1: 380.
The 3rd coil pipe group coil pipe number of turn is cold, hot two-purpose water tank internal height per unit rice 10- in the cold, hot two-purpose water tank
18 circles, angle is 19-36 degree between the coil pipe of the different numbers of turn;The ratio between the coil pipe internal diameter and the cold, hot two-purpose water tank internal diameter are 1: 300.
The solar thermal collector includes inlet channel, outlet conduit, regulating valve, heat-insulation layer A, reflecting plate, heat insulation layer A, steel
Change glass and communicating pipe;
Described solar thermal collector is uprightly set with ground into 40-50 degree angle;It is hollow in the communicating pipe;A plurality of companies
Siphunculus is arranged with erectility and positioned at a side surface of the reflecting plate;The opposite side of the reflecting plate is covered with the heat-insulation layer successively
A and heat insulation layer A;The safety glass covers on the outer surface of a plurality of communicating pipes;
A plurality of communicating pipes turn at both ends and connected respectively with the inlet channel and the outlet conduit;The inlet channel
Positioned at the top of described solar thermal collector and it is horizontally disposed with, the outlet conduit is located at the bottom of described solar thermal collector
It is and horizontally disposed;The first regulating valve is provided with the inlet channel;The second regulating valve is provided with the outlet conduit;First He
Second regulating valve is with the mutually isostructural regulating valve.
20 millimeters of a diameter of Φ of the inlet channel;20 millimeters of a diameter of Φ of the outlet conduit;The safety glass is high intensity
Hollow double-deck inflated with nitrogen insulation safety glass;The regulating valve is that can automatically adjust the negative pressure valve of internal negative pressure;Heat-insulation layer A is poly-
Urethane heat-insulation layer, heat-insulation layer A thickness is 20-40 millimeters;The reflecting plate is efficient U-shaped light gathering baffle-board;Heat insulation layer A is
Heat energy back film heat insulation layer, heat insulation layer A thickness is 0.2-0.3 millimeters;9 millimeters of communicating pipe a diameter of Φ.
Being set in the solar-energy air-energy control centre reception processing and can send processing and come from the air-conditioner controller, if
Put the inflow temperature sensor in the heat storage water tank and the cold, hot two-purpose water tank, leaving water temperature sensors, water flow sensor,
Temperature sensor in VMC, temperature sensor in connecting pipe and the micro computer processing dress for emptying valve group electric signal
Put;The micro-computer processing unit includes central processing unit, internal memory, control circuit and input/output interface.
It can realize that relying primarily on solar energy carries out warming using technical scheme, and utilize solar energy simultaneously
It is round-the-clock to meet the needs of heat supply, refrigeration, water purification, generating, fresh air as needed, still reach indoor under harsh climate environment
Constant temperature, constant humidity, permanent oxygen, high comfortable, no pollution, zero-emission, thoroughly effect a radical cure the pernicious gases pair such as indoor pm2.5, formaldehyde, dimethylbenzene
The infringement of human body;Grown with service life, cost of investment is low, and the effect of long term benefit.
Brief description of the drawings
Fig. 1 is present system entirety principle schematic;
Fig. 2 is connecting pipe cross section structure schematic diagram in Fig. 1;
Fig. 3 is connecting pipe valve cross section structure schematic diagram in Fig. 1;
Fig. 4 is water tank wall cross section structure schematic diagram in Fig. 1;
Fig. 5 is A-A close-up schematic views in Fig. 4;
Fig. 6 is solar thermal collector side structure schematic diagram in Fig. 1;
Fig. 7 is solar thermal collector positive structure schematic in Fig. 1.
Label declaration in figure
1. collect hot recycle pump
2. magnetic valve
21. connecting pipe inner tube
22. outer tube
23. the 3rd heat insulation layer
24. the first heat-insulation layer
25. the first heat insulation layer
26. the second heat insulation layer
27. the second heat-insulation layer
3. heat medium circulation pump
4. ultralow-temperature air energy heat pump
5. hot water circulating pump
6. heat storage water tank
7. cold, hot two-purpose water tank
131. stainless steel plate
132. heat insulation layer C
133. heat-insulation layer C
134. elevated-temperature seal bar
8. solar thermal collector
81. inlet channel
82. outlet conduit
83. regulating valve
84. heat-insulation layer A
85. reflecting plate
86. heat insulation layer A
87. safety glass
88. communicating pipe
9. floor heating circulation pump
10. air-conditioning circulating pump
11. solar-energy air-energy control centre
12. air-conditioner controller
13. check-valves
14. water knockout drum
15. air bleeding valve
Embodiment
It is as follows to technical solution of the present invention detailed description below in conjunction with the accompanying drawings, fully understanded with profit.
As shown in figure 1, a kind of all-weather solar intelligent ecological system, it is characterised in that including collecting hot recycle pump 1, electromagnetism
Valve 2, heat medium circulation pump 3, ultralow-temperature air energy heat pump 4, hot water circulating pump 5, heat storage water tank 6, cold, hot two-purpose water tank 7, solar energy
Heat collector 8, floor heating circulation pump 9, air-conditioning circulating pump 10, solar-energy air-energy control centre 11, air-conditioner controller 12, check-valves
13, water knockout drum 14, air bleeding valve 15, ground heating system, VMC, fan coil and connecting pipe;
Described heat storage water tank 6 is overall column (such as cylindric), hollow, the outside vertical type for being provided with attemperator
Structure;The heat storage water tank 6 is internally provided with the first coil pipe group and the second coil pipe group;
The porch of the first described coil pipe group is provided with air bleeding valve 15;The outlet of the first coil pipe group passes through connecting pipe
Connect the collection hot recycle pump 1;The collection hot recycle pump 1 (has been arranged as required to temperature biography by connecting pipe in the connecting pipe
Sensor) connect the water inlet of the solar thermal collector 8;The delivery port of the solar thermal collector 8 passes through hot water heat exchanger and connection
The entrance of pipeline communication the first coil pipe group;
The entrance of the second described coil pipe group by being connected to the connecting pipe of external water (in the connecting pipe as needed
It is provided with temperature sensor) connecting the check-valves 13, (check-valves 13 can be unidirectionally to prevent external water to be directly entered a point family and store up
Boiler);The check-valves 13 passes through connecting pipe and the outlet for dividing family heat storage water tank;The outlet of the second coil pipe group passes through
Connecting pipe connects the hot water circulating pump 5;The hot water circulating pump 5 is connected by connecting pipe with a point entrance for family heat storage water tank;
This divides family heat storage water tank to be connected with bathing apparatus;So external water can be (according to the monitoring of temperature sensor and water flow sensor)
Control enters into and through the entrance of the second coil pipe group, and outlet, hot water circulating pump 5, point family heat storage water tank and check-valves 13 are formed
Clockwise circulating hot water flowing, ensure to divide the bathing and domestic hot-water that flowing is enough in family heat storage water tank and pipeline.
Described cold, hot two-purpose water tank 7 is overall column, hollow, the outside upright structures for being provided with attemperator;Should
The bottom of cold, hot two-purpose water tank 7 is provided with the outlet connected with the magnetic valve 2, and the magnetic valve 2 passes through connecting pipe and the heat accumulation
Water tank 6 connects;The cold, hot two-purpose water tank 7 is connected by connecting pipe with external water;
Described cold, hot two-purpose water tank 7 is internally provided with the 3rd coil pipe group;The entrance of 3rd coil pipe group connects the heat
Matchmaker's circulating pump 3;The heat medium circulation pump 3 connects the ultralow-temperature air energy heat pump 4 by connecting pipe;The outlet of 3rd coil pipe group
The ultralow-temperature air energy heat pump 4 is connected by connecting pipe;
The ultralow-temperature air energy heat pump is typically using 220V 5P (20KW) two level, San Ji Vortex rotation booster compressors or rotor
Frequency-changeable compressor, use the anti-icing fluid (such as the types of ASBTOP tri-) of the suitable extremely cold area of special pressure-bearing, hydrophilic high efficient heat exchanging aluminium foil
Deng, by high energy efficiency heat exchange tank, and the copper pipe increasing heat exchange area that inward turning screw thread inclination angle is 5.7 °, utilize reverse heat build-up wink
Between defrosting system defrost, using the Remote mode such as computer, mobile phone, flat board, realize intelligent ultralow temperature, high energy efficiency ratio (zero
Lower 20 DEG C of return water temperatures are under conditions of 45 DEG C, Energy Efficiency Ratio 2.84).
The first coil pipe group coil pipe number of turn is the internal height per unit rice 26-30 circles of heat storage water tank 6 in the heat storage water tank 6,
Preferably 26 circles;Angle is 5-10 degree, preferably 5 degree between the coil pipe of the different numbers of turn;The second coil pipe group coil pipe number of turn is the storage
The internal height per unit rice 18-22 circles of boiler 6, preferably 18 circles;Angle is 10-18 degree between the coil pipe of the different numbers of turn, preferably
For 10 degree;The ratio between the coil pipe internal diameter and the internal diameter of heat storage water tank 6 are 1: 380.
The 3rd coil pipe group coil pipe number of turn is the internal height per unit rice of cold, hot two-purpose water tank 7 in the cold, hot two-purpose water tank 7
10-18 circles, preferably 15 circles;Angle is 19-36 degree, preferably 20 degree between the coil pipe of the different numbers of turn;The coil pipe internal diameter is cold with this
The ratio between hot internal diameter of dual-purpose water tank 7 is 1: 300.
Described cold, hot two-purpose water tank 7 connects the entrance of the ground heating system by the water knockout drum 14 with connecting pipe;The ground
The outlet of heating system connects the cold, hot two-purpose water tank 7 by connecting pipe;
In order to realize that constant temperature, constant humidity, permanent oxygen, perseverance are net, control ultralow-temperature air energy (i.e. super by temperature sensor feedback
Low-temperature air energy heat pump), and then water tank water temperature is controlled, water temperature is controlled in 45-50 degree, from never generation such as common floor heating
Caused hot-tempered hot and indoor floating dust is flown upward, and floating dust fluctuating terrain clearance is realized permanent net in below 200mm.
Described cold, hot two-purpose water tank 7 connects the fan coil with connecting pipe by the air-conditioning circulating pump 10;The blower fan
Coil pipe connects ceiling capillary group by connecting pipe;The external connection of the fan coil can be controlled by the air-conditioner controller 12
Air-conditioning device;Water temperature in the controllable fan coil of the air-conditioning device be allowed to influence the water temperature of flowing in ceiling capillary group and
Play cooling in summer, the purpose of winter auxiliary heat supplying.Ceiling capillary group is freezed, and is to freeze as heating floor heating
Evenly, it is more comfortable, it is more energy efficient, by air-conditioner controller come accurate temperature controlling, realization refrigeration or heating.
The entrance of described heat storage water tank 6 is connected to the emptying valve group on the connecting pipe;
Described heat storage water tank 6, temperature sensor is provided with cold, hot two-purpose water tank 7 and connecting pipe;
Described VMC includes the intake stack being connected with exchange control device;The intake stack is spiral helicine disk
Tubular construction, the intake stack are located at the bottom of ground heating system;The entrance of the intake stack is located outside, the outlet of the intake stack
Positioned at interior;Temperature sensor is provided with the entrance and exit of the intake stack;It should be noted is that the intake stack
Entrance and exit setting can be exchanged by exchange control device according to demand;The central Total heat exchange VMC of the present invention
Underground air inlet system pipeline, due to being arranged on the bottom of ground heating system, so, in summer, ultralow-temperature air energy is freezing
When, be in pipeline (pipeline of ground heating system) 18-20 degree cold water, the outdoor high-temperature hot air by deep purifying passes through complete
After the cold water layer cooling in room, comfortable naturally cold air is changed to by the fresh air pipeline in full room by each room, both realized big
The energy-saving effect (power consumption is only 1/10th of air-conditioning ... 1/20th) of width, meanwhile, freon refrigeration has been effected a radical cure again
The generation of the air conditioner disease of the obstinate disease of air-conditioning-i.e.!When winter heats air therewith principle on the contrary, what is got in is warm new
Fresh air.
Described solar-energy air-energy control centre 11 by electronic circuit respectively with the magnetic valve 2, the ultra-low temperature air
Energy heat pump 4, the solar thermal collector 8, the air-conditioner controller 12, the VMC, the ground heating system are electrically connected with.
As shown in Figures 2 and 3, the structure of the connecting pipe includes connecting pipe inner tube 21, outer tube 22, the 3rd heat insulation layer
23, the first heat-insulation layer 24, the first heat insulation layer 25, the second heat insulation layer 26 and the second heat-insulation layer 27;
The ratio between pipe thickness and pipe diameter of the connecting pipe inner tube 21 are 0.12: 1 under same units;
First heat insulation layer 25 is double-decker, successively ring set the connecting pipe inner tube 21 outer shroud, each Rotating fields
Thickness is identical;The ratio between the thickness and described pipe thickness are 0.5: 1;The thickness in monolayer of first heat insulation layer is 0.2-0.3 millis
Rice;
Outer shroud of the ring set of first heat-insulation layer 24 in first heat insulation layer 25;The thickness of first heat-insulation layer 24 with it is described
The ratio between pipe thickness is 0.9: 1;The thickness of first heat-insulation layer 24 is 20-40 millimeters;
Second heat insulation layer 26 is double-decker, and ring set is in the outer shroud of first heat-insulation layer 24, the thickness of each Rotating fields successively
Spend identical;The ratio between the thickness and described pipe thickness are 0.5: 1;The thickness in monolayer of second heat insulation layer is 0.2-0.3 millimeters;
Outer shroud of the ring set of second heat-insulation layer 27 in second heat insulation layer 26;The thickness of second heat-insulation layer 27 with it is described
The ratio between pipe thickness is 0.9: 1;The thickness of second heat-insulation layer 27 is 20-40 millimeters;
3rd heat insulation layer 23 is single layer structure, and ring set is in the outer shroud of second heat-insulation layer 27, the thickness of the 3rd heat insulation layer 23
The ratio between degree and described pipe thickness are 0.3: 1;The thickness of 3rd heat insulation layer 23 is 0.2-0.3 millimeters;
The outer tube 22 is oblique pipe crimping structure, outer shroud of the ring set in the 3rd heat insulation layer 23;The thickness of the outer tube 22 with
The ratio between described pipe thickness is 1: 1.(above every ratio should under identical unit, such as millimeter or centimetre);
The material of the connecting pipe inner tube 21 is hot dip galvanizing pipe or resistance oxygen PPR pipe;The material of the outer tube 22 is galvanizing
Or the oblique pipe crimping of aluminium sheet;First heat-insulation layer 24 and second heat-insulation layer 27 are made up of mechanism polyurethane heat insulation material;This is first exhausted
The material of thermosphere 25, the second heat insulation layer 26 and the 3rd heat insulation layer 23 is glass fibre, asbestos or aerogel blanket.
The pipeline that above-described connecting pipe is a kind of ultraviolet radiation resisting aging and extremely cold area is incubated, inside use
Multilayer composite heat insulating material, it is ensured that heat fade is at 3-10 DEG C in -20 DEG C to -50 DEG C extremely cold areas 24 hours;Outside is in order to anti-
Only ultraviolet light irradiation causes insulating tube cracking, aging and is not incubated, and makes outer surface durability more than 30 years, except utilidor
Outside, circulating pump, ball valve, pipeline connection movable joint and sensor can use such structure (such as Fig. 3);Produced using particular manufacturing craft
Standardize special, protect high-efficiency insulated external member, realize good appearance, insulation is notable, durable in use, economical and practical, is easy to advise greatly
The characteristics of mould popularizes.
As shown in Figure 4 and Figure 5, the structure of the heat storage water tank 6 or the cold, hot two-purpose water tank 7 is by stainless steel plate 131 and tightly
Cover the double-decker of heat insulation layer C132 compositions thereon;The stainless steel plate 131 is located at outer layer;Filled with poly- between the double-decker
The heat-insulation layer C133 of urethane material;What i.e. heat-insulation layer C133 two sides touched is all the heat insulation layer C132 parts of different layers.
It is jointly continuous that the elevated-temperature seal bar 134 is located at the stainless steel plate 131 docked by the both sides of seam crossing into vertical configuration
In the closing space at a right angle clockwise that crimping is formed three times;Four sides of the elevated-temperature seal bar 134 and described heat insulation layer C132
Into withstanding structure;The closing space and withstanding structure respectively constitute the mechanical seam part of the water tank ectonexine;Concrete operations
Exactly the elevated-temperature seal bar 134 is involved in the stainless steel plate on seam both sides, end is withstood in the termination of both sides stainless steel plate seam crossing
Extruded after root using mechanical means high intensity, the sealing of water tank seam crossing is formed among the elevated-temperature seal bar 134 is extruded;
The double-decker forms the structure of sealing by mechanical seam respectively;The mechanical seam of the double-decker is partly embedded into
In heat-insulation layer C133.
The ratio between the stainless steel plate 131 and heat insulation layer C132 thickness is 1: 1;Heat insulation layer C132 material is glass fibre
Or rock wool;The ratio between thickness of heat-insulation layer C133 and the stainless steel plate 131 is 12: 1;The section of elevated-temperature seal bar 134 is rectangular
Shape, for length with the crimping with length, thickness is 2 millimeters, and length or width are 6 millimeters or 10 millimeters.
Traditional press-bearing water tank and non-pressure water tank, the connection of seam is realized using the technological means of high-frequency welding,
Make stainless steel lattice structure that fundamental change occur, be changed into general ferrite lattice.Because the regional water source having is larger containing alkalescence, make
Into corrosion at a seam leak, water tank is scrapped, cause serious consequence, and enamel inner container water tank, will not in the place contacted with water
Corrosion is produced, and at middle chuck, because gap is too small, vitreous enamel can not be sprayed onto in chuck in process of production, is being used
Internal serious corrosion is caused after several years, and produces the hidden danger that corrosion leak is scrapped.Outside cisten mechanism of the present invention and inside uses
The mode (see Fig. 4 and Fig. 5) of stainless steel flange engaging-piece engagement+refractory seals adhesive tape high intensity extruding, passes through the 12kg/ that pressurizes
M keeps destructive testing in 48 hours, thoroughly solves this technical barrier in industry.
As shown in Figure 6 and Figure 7, the solar thermal collector 8 includes a diameter of 20 millimeters of inlet channels 81 of Φ, a diameter of Φ 20
Millimeter outlet conduit 82, regulating valve 83, heat-insulation layer A84, reflecting plate 85, heat insulation layer A86, safety glass 87 and the millis of a diameter of Φ 9
Rice communicating pipe 88;
Described solar thermal collector 8 is uprightly set with ground into 40-50 degree angle;It is hollow in the communicating pipe 88;It is a plurality of
Arranged with erectility the communicating pipe 88 and positioned at a side surface of the reflecting plate 85;The opposite side of the reflecting plate 85 pastes successively
There are heat-insulation layer A84 and heat insulation layer A86;The safety glass 87 covers on the outer surface of a plurality of communicating pipes 88;
A plurality of communicating pipes 88 turn at both ends and connected respectively with the inlet channel 81 and the outlet conduit 82;This enters
Waterpipe 81 is located at the top of described solar thermal collector 8 and is horizontally disposed with, and the outlet conduit 82 is located at described solar energy
The bottom of heat collector 8 and horizontally disposed;The first regulating valve is provided with the inlet channel 81;Is provided with the outlet conduit 82
Two regulating valves;First and second regulating valve is with the mutually isostructural regulating valve 83.
The safety glass 87 is that high-intensity hollow bilayer inflated with nitrogen is incubated safety glass;The regulating valve 83 is to automatically adjust
The negative pressure valve of internal negative pressure;Heat-insulation layer A84 is polyurethane insulation coating (thickness is 20-40 millimeters);The reflecting plate 85 is efficient U
Type light gathering baffle-board;Heat insulation layer A86 is heat energy back film heat insulation layer (thickness is 0.2-0.3 millimeters).
It is efficiently U-shaped poly- with reference to the ageing-resistant silica gel strip of antiultraviolet, polyurethane composite heat-insulating layer using titanium magnesium alloy section bar
Light reflecting board, automatically adjust internal negative pressure valve and anti-strong acid, anti-highly basic, resistance to -180 DEG C to+200 DEG C of self-closing waterproof, antifog, mistake
Micro- porous (polytetrafluoroethylene (PTFE)) films of ePTFE of filter PM2.5 micronic dusts, low iron high transmission rate, high-absorbility (93%-96%) are high-strength
Double layer hollow safety glass is spent, it is internal filled with nitrogen inert gas, ensure the penetrability of solar energy ultraviolet and carry out photo-thermal turn
Change, while nitrogen is full of in hollow pair glass, greatly obstruct heat energy and pass through the outside heat conduction of double glazing.With reference to building energy conservation
The mode such as integral standard support and template, realize efficient heat-collecting, antifreeze, antifog, anti-hail, the environmental protection of long-life, freedom from repairs
Save green solar flat plate collector.
Setting in the solar-energy air-energy control centre 11 reception processing and can send processing and come from the air-conditioner controller
12, the inflow temperature sensor being arranged in the heat storage water tank 6 and the cold, hot two-purpose water tank 7, leaving water temperature sensors, water-carrying capacity
Sensor, the temperature sensor in VMC, temperature sensor in connecting pipe and the micro computer for emptying valve group electric signal
Processing unit;The micro-computer processing unit includes central processing unit, internal memory, control circuit and input/output interface.
In the use of the present invention, it is daily 40-50 ° when the sun rises irradiating support angle, efficient heat-collecting is antifreeze antifog anti-
Nitrogen, high transmission rate, high-absorbility (93%-96%) flat panel solar heat collecting are full of in the high intensity double layer glass of hail
During device, after internal German blue film or the heat absorption of black film collecting plate, it is rapidly heated in a short time, when pipe temperature reaches 40 DEG C,
By temperature sensor, pipe temperature is passed to solar energy intelligent control center, intelligent control center sends instruction, and heat is handed over
The clear water changed in water tank is pumped into solar thermal collection system and forms systemic circulation by temperature-sensitive circulating pump, circulation rate according to temperature and
Automatically adjust change;When water temperature rises to 50 DEG C, circulation rate is accelerated, and the heat energy in heat collector is quickly delivered in water tank
Heat exchange is carried out, heat collector starts rapid heating accumulation of energy water after preferentially ensureing that bath system water tank water temperature reaches 40-45 DEG C
Case;When water temperature reaches 45-50 DEG C, ground heating system brings into operation, thermal energy storage under floor, in rapid uniform heating chamber
Space, by adjusting floor heating heating-up temperature, room temperature is reached preferable comfort temperature, thoroughly overcome floor heating industry long-term existence
Room air because central heating temperature it is too high (70-95 DEG C), the various dust for making for a long time to gather in floor joint are in high temperature
Under the blowing of gas, the harmful substance such as benzene, dimethylbenzene, Benzpyrene, nitrogen oxides, germ, dust is flown upward everywhere indoors, is made one
Mouth parched and tongue scorched, have a dizzy spell, mood is irritated, easily triggers disease, caused by pollution level considerably beyond PM2.5, PM10 danger
Evil.By intelligent control water temperature in the range of 35 DEG C -50 DEG C heating floor, make one spirit and QI cleaning, pin heat is cool, meets the traditional Chinese medical science and supports
Raw theory.
When water temperature is less than 38 DEG C, temperature signal is passed to solar energy intelligent control center by the temperature sensor of pipeline,
Intelligent control center sends instruction, and mechanical emptying valve is opened, quickly recirculated water whole in solar thermal collector and pipeline certainly
It is dynamic to be discharged into heat exchange water tank and energy-accumulating water tank saves, thermal energy loss is reduced to greatest extent, ensures solar energy heating
The valuable energy that device absorbs maximally utilizes, simultaneously as not having residual water in pipeline, fundamentally breaches the skill in industry
Art bottleneck, solve the most anxious problem of solar thermal collector, pipeline, this antifreeze industry of circulating pump, save substantial amounts of
Antifreeze circulating pump electricity consumption and antifreeze heating tape electricity consumption, save considerable investment and human and material resources cost, make generation major accident
Possibility be reduced to " 0 ", this technology allows Solar use in the extremely cold area widely large area in -20 to -50 DEG C of the north
Use.
Claims (8)
1. a kind of all-weather solar intelligent ecological system, it is characterised in that including collection hot recycle pump (1), magnetic valve (2), heating agent
Circulating pump (3), ultralow-temperature air energy heat pump (4), hot water circulating pump (5), heat storage water tank (6), cold, hot two-purpose water tank (7), the sun
Energy heat collector (8), floor heating circulation pump (9), air-conditioning circulating pump (10), solar-energy air-energy control centre (11), air-conditioner controller
(12), check-valves (13), water knockout drum (14), air bleeding valve (15), ground heating system, VMC, fan coil and connecting pipe;
Described heat storage water tank (6) is overall column, hollow, the outside upright structures for being provided with attemperator;The water storage
Case (6) is internally provided with the first coil pipe group and the second coil pipe group;
The porch of the first described coil pipe group is provided with air bleeding valve (15);The outlet of the first coil pipe group is connected by connecting pipe
Lead to the collection hot recycle pump (1);The collection hot recycle pump (1) connects the water inlet of the solar thermal collector (8) by connecting pipe;Should
The delivery port of solar thermal collector (8) connects the entrance of the first coil pipe group by hot water heat exchanger with connecting pipe;
The entrance of the second described coil pipe group connects the check-valves (13) by being connected to the connecting pipe of external water;The check-valves
(13) connecting pipe and the outlet for dividing family heat storage water tank are passed through;The outlet of the second coil pipe group should by connecting pipe connection
Hot water circulating pump (5);The hot water circulating pump (5) is connected by connecting pipe with a point entrance for family heat storage water tank;This divides family heat accumulation
Water tank connects with bathing apparatus;
Described cold, hot two-purpose water tank (7) is overall column, hollow, the outside upright structures for being provided with attemperator;This is cold
The bottom of hot dual-purpose water tank (7) is provided with the outlet connected with the magnetic valve (2), and the magnetic valve (2) is by connecting pipe with being somebody's turn to do
Heat storage water tank (6) connects;The cold, hot two-purpose water tank (7) is connected by connecting pipe with external water;
Described cold, hot two-purpose water tank (7) is internally provided with the 3rd coil pipe group;The entrance of 3rd coil pipe group connects the heating agent
Circulating pump (3);The heat medium circulation pump (3) connects the ultralow-temperature air energy heat pump (4) by connecting pipe;3rd coil pipe group
Outlet connects the ultralow-temperature air energy heat pump (4) by connecting pipe;
Described cold, hot two-purpose water tank (7) connects the entrance of the ground heating system by the water knockout drum (14) with connecting pipe;The ground
The outlet of heating system connects the cold, hot two-purpose water tank (7) by connecting pipe;
Described cold, hot two-purpose water tank (7) connects the fan coil with connecting pipe by the air-conditioning circulating pump (10);The blower fan
Coil pipe connects ceiling capillary group by connecting pipe;The external connection of the fan coil can be controlled by the air-conditioner controller (12)
The air-conditioning device of system;
The entrance of described heat storage water tank (6) is connected to the emptying valve group on the connecting pipe;
Described heat storage water tank (6), temperature sensor is provided with cold, hot two-purpose water tank (7) and connecting pipe;
Described VMC includes the intake stack being connected with exchange control device;The intake stack is spiral helicine coil pipe knot
Structure, the intake stack are located at the bottom of ground heating system;The entrance of the intake stack is located outside, and the outlet of the intake stack is located at
It is indoor;Temperature sensor is provided with the entrance and exit of the intake stack;
Described solar-energy air-energy control centre (11) by electronic circuit respectively with the magnetic valve (2), the ultra-low temperature air
Energy heat pump (4), the solar thermal collector (8), the air-conditioner controller (12), the ground heating system, the VMC are electrically connected with;
The structure of the connecting pipe includes connecting pipe inner tube (21), outer tube (22), the 3rd heat insulation layer (23), the first heat-insulation layer
(24), the first heat insulation layer (25), the second heat insulation layer (26) and the second heat-insulation layer (27);
The ratio between pipe thickness and pipe diameter of the connecting pipe inner tube (21) are 0.12 under same units:1;
First heat insulation layer (25) is double-decker A, successively ring set the connecting pipe inner tube (21) outer shroud, each Rotating fields
Thickness is identical;The ratio between the thickness and described pipe thickness are 0.5:1;
Outer shroud of first heat-insulation layer (24) ring set in first heat insulation layer (25);The thickness of first heat-insulation layer (24) with it is described
The ratio between pipe thickness be 0.9:1;
Second heat insulation layer (26) is double-decker B, and ring set is in the outer shroud of first heat-insulation layer (24), the thickness of each Rotating fields successively
Spend identical;The ratio between the thickness and described pipe thickness are 0.5:1;
Outer shroud of second heat-insulation layer (27) ring set in second heat insulation layer (26);The thickness of second heat-insulation layer (27) with it is described
The ratio between pipe thickness be 0.9:1;
3rd heat insulation layer (23) is single layer structure, and ring set is in the outer shroud of second heat-insulation layer (27), the 3rd heat insulation layer (23)
The ratio between thickness and described pipe thickness are 0.3:1;
The outer tube (22) is oblique pipe crimping structure, outer shroud of the ring set in the 3rd heat insulation layer (23);The thickness of the outer tube (22)
It is 1 with the ratio between described pipe thickness:1;
The thickness of first heat-insulation layer (24) and second heat-insulation layer (27) is 20-40 millimeters;The thickness of the heat insulation layer individual layer is
0.2-0.3 millimeters;
The structure of the heat storage water tank (6) or the cold, hot two-purpose water tank (7) is by stainless steel plate (131) and tightly covers heat insulation layer thereon
The double-decker C of C (132) compositions;The stainless steel plate (131) is located at outer layer;Polyurethane material is filled between double-decker C
Heat-insulation layer C (133);
The stainless steel plate (131) docks common continuous crimping clockwise at a right angle into vertical configuration by the both sides of seam crossing and formed three times
Closing space in be provided with elevated-temperature seal bar (134);Four sides of the elevated-temperature seal bar (134) and described heat insulation layer C (132)
Into withstanding structure;The closing space and withstanding structure are respectively constituted in the heat storage water tank (6) or the cold, hot two-purpose water tank (7)
The mechanical seam part of outer layer;
Double-decker C forms the structure of sealing by mechanical seam respectively;Double-decker C mechanical seam is partly embedded into this
In heat-insulation layer C (133);
The ratio between the stainless steel plate (131) and heat insulation layer C (132) thickness is 1:1;Heat insulation layer C (132) material is glass fibers
Dimension or rock wool;The ratio between thickness of heat-insulation layer C (133) and the stainless steel plate (131) is 12:1;The elevated-temperature seal bar (134) is cut
Face is rectangle, and for length with the crimping with length, thickness is 2 millimeters, and length or width are 6 millimeters or 10 millimeters;
The solar thermal collector (8) includes inlet channel (81), outlet conduit (82), regulating valve (83), heat-insulation layer A (84), instead
Penetrate plate (85), heat insulation layer A (86), safety glass (87) and communicating pipe (88);
Described solar thermal collector (8) is uprightly set with ground into 40-50 degree angle;It is hollow in the communicating pipe (88);It is a plurality of
Arranged with erectility the communicating pipe (88) and positioned at a side surface of the reflecting plate (85);The opposite side of the reflecting plate (85) according to
It is secondary to be covered with heat-insulation layer A (84) and heat insulation layer A (86);The safety glass (87) covers on the outer of a plurality of communicating pipes (88)
Surface;
A plurality of communicating pipes (88) turn at both ends and connected respectively with the inlet channel (81) and the outlet conduit (82);Should
Inlet channel (81) is located at the top of described solar thermal collector (8) and is horizontally disposed with, and the outlet conduit (82) is positioned at described
The bottom of solar thermal collector (8) and horizontally disposed;Inlet channel (81) place is provided with the first regulating valve;The outlet conduit
(82) place is provided with the second regulating valve;First and second regulating valve is with the mutually isostructural regulating valve (83).
2. all-weather solar intelligent ecological system as claimed in claim 1, it is characterised in that the connecting pipe inner tube (21)
Material for hot dip galvanizing pipe or resistance oxygen PPR pipe;The material of the outer tube (22) is galvanizing or the oblique pipe crimping of aluminium sheet;First insulation
Layer (24) and second heat-insulation layer (27) are made up of mechanism polyurethane heat insulation material;First heat insulation layer (25), the second heat insulation layer
(26) and the material of the 3rd heat insulation layer (23) is glass fibre, asbestos or aerogel blanket.
3. all-weather solar intelligent ecological system as claimed in claim 1, it is characterised in that first in the heat storage water tank (6)
The coil pipe group coil pipe number of turn is heat storage water tank (6) internal height per unit rice 26-30 circles, and angle is 5- between the coil pipe of the different numbers of turn
10 degree;The second coil pipe group coil pipe number of turn is heat storage water tank (6) internal height per unit rice 18-22 circles, the disk of the different numbers of turn
Angle is 10-18 degree between pipe;The ratio between the first coil pipe group coil pipe internal diameter and heat storage water tank (6) internal diameter are 1:380, second disk
The ratio between pipe group coil pipe internal diameter and heat storage water tank (6) internal diameter are 1:380.
4. all-weather solar intelligent ecological system as claimed in claim 1, it is characterised in that in the cold, hot two-purpose water tank (7)
The 3rd coil pipe group coil pipe number of turn is cold, hot two-purpose water tank (7) internal height per unit rice 10-18 circles, between the coil pipe of the different numbers of turn
Angle is 19-36 degree;The ratio between 3rd coil pipe group coil pipe internal diameter and cold, hot two-purpose water tank (7) internal diameter are 1:300.
5. all-weather solar intelligent ecological system as claimed in claim 1, it is characterised in that inlet channel (81) diameter
For 20 millimeters of Φ;20 millimeters of a diameter of Φ of the outlet conduit (82);The safety glass (87) is high-intensity hollow bilayer inflated with nitrogen
It is incubated safety glass;The regulating valve (83) is that can automatically adjust the negative pressure valve of internal negative pressure;Heat-insulation layer A (84) protects for polyurethane
Warm layer, heat-insulation layer A (84) thickness is 20-40 millimeters;The reflecting plate (85) is efficient U-shaped light gathering baffle-board;Heat insulation layer A
(86) it is heat energy back film heat insulation layer, heat insulation layer A (86) thickness is 0.2-0.3 millimeters;The communicating pipe (88) a diameter of Φ 9
Millimeter.
6. all-weather solar intelligent ecological system as claimed in claim 1, it is characterised in that the solar-energy air-energy controls
Setting in center (11) reception processing and can send processing and come from the air-conditioner controller (12), be arranged on the heat storage water tank (6)
With the inflow temperature sensor in the cold, hot two-purpose water tank (7), leaving water temperature sensors, water flow sensor, in VMC
Temperature sensor, temperature sensor in connecting pipe and the micro-computer processing unit for emptying valve group electric signal;The micro computer
Processing unit includes central processing unit, internal memory, control circuit and input/output interface.
7. all-weather solar intelligent ecological system as claimed in claim 3, it is characterised in that first in the heat storage water tank (6)
The coil pipe group coil pipe number of turn is the circle of heat storage water tank (6) internal height per unit rice 26, and angle is 5 degree between the coil pipe of the different numbers of turn;
The second coil pipe group coil pipe number of turn is the circle of heat storage water tank (6) internal height per unit rice 18, angle between the coil pipe of the different numbers of turn
For 10 degree.
8. all-weather solar intelligent ecological system as claimed in claim 4, it is characterised in that in the cold, hot two-purpose water tank (7)
The 3rd coil pipe group coil pipe number of turn is the circle of cold, hot two-purpose water tank (7) internal height per unit rice 15, angle between the coil pipe of the different numbers of turn
Spend for 20 degree.
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CN2295001Y (en) * | 1997-04-18 | 1998-10-21 | 杜希会 | High-strength combined water tank |
CN1120339C (en) * | 2000-08-18 | 2003-09-03 | 徐生恒 | Geothermal liquid cold and hot source system |
CN101476760B (en) * | 2009-01-23 | 2012-04-18 | 曼瑞德自控系统(乐清)有限公司 | Multi-heat source dwelling house comfortable integration system based on solar energy |
CN101793449A (en) * | 2010-03-23 | 2010-08-04 | 广东美的电器股份有限公司 | Multi-heat-source heat pump system |
CN101886856B (en) * | 2010-07-14 | 2013-02-06 | 昆明铁路局科学技术研究所 | Energy-saving tri-link hot water and air conditioning integrated application device |
CN204038066U (en) * | 2014-09-03 | 2014-12-24 | 江苏铭星供水设备有限公司 | A kind of combined stainless steel mold pressing plate non-soldering water tank |
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